SU705350A1 - Current sensor of a magnetic member coil - Google Patents

Description

54) MAGNETIC ELEMENT Winding CURRENT SENSOR

Claims (2)

The invention relates to electrical engineering and can be used in systems for regulating and converting electrical energy for building protection and alarm devices, automatically disconnecting loads, and the like. A resistive-type current sensor is known. It is a resistor connected in series to the measured current circuit I. The disadvantage of this device is that it involves additional power loss. To reduce these losses leads to a decrease in the signal from the output of the sensor. Another disadvantage is that it is technically difficult to realize the resistance due to the smallness of the resistance value (usually thousands of ohms). The purpose of the invention is to increase the output signal of the sensor due to the use of natural losses in the winding of the magnetic element. This is achieved by the fact that the winding current sensor of a magnetic element of the resistive type is made in the form of an additional winding, which is directly connected to the same terminal of the magnetic element winding by the first terminal, has the same number of turns and is located on the same magnetic core as the magnetic element winding, and the second terminals of said windings are galvanically connected to the output terminals of the sensor. The drawing is a schematic diagram of the device. It contains a winding 1, through which the measured current flows (shown by arrows), and an additional winding 2 of the magnetic element 3, which is directly connected by the same terminals (ends), and the second terminals of these windings are galvanically connected to the output terminals 4 and 5 of the sensor current. The beginning of the winding 1 is directly connected to the terminal 5, and the beginning of the winding 2 of the element 3 is connected to the terminal 4 through an integrating circuit resistor 6. The capacitor of this integrated circuit is connected parallel to the output terminals of the sensor. The principle of the device is as follows. If winding 1 is primary, then the current flow direction corresponds to the positive polarity of the voltage at the beginning of the current flow 1 and 2 of the magnetic element 3, In this case, the voltage 1d between the output terminals 4 and 5 of the sensor is defined by the expression AFF2 where: I.- current taken from the current sensor; TH e / - the number of turns of the windings 1 and R, is the resistance of the wire of the winding 1; K, is the resistance of the wire of winding 2 and the resistance of the circuit connected in sequence (D with this winding; vd) the rate of change of the magnetic flux coupled with the turns of windings 1 and 2. SCAN, and windings 1 and 2 are windings on the same the core and are therefore associated with the same magnetic flux, then.-.- It is usually not technically difficult to ensure that the current consumption of the circuits connected to the output of the sensor is negligible. and then in this case, i.e. The signal on the output of the sensor is proportional to the current flowing through the winding 1. The link b shown in the drawing is not necessary, but it is advisable to use it to eliminate the oscillatory nature of the voltage at the output of the sensor due to the presence of parasitic reactivities of windings 1 and 2. The principle of operation of the device does not change if winding 1 is secondary. Only the voltage across the output terminals of the sensor is changed. The use of the inherent winding resistance sensor in order to obtain a signal proportional to the current flowing through this winding allows increasing the amplitude of the signal from the sensor output without additional losses caused by the use of the sensor in the power measured current circuit. The voltage drop across the internal resistance of a winding, typically 1–1%, is 1-3% of the total voltage applied to the winding (acting on the winding). Therefore, to obtain the same amplitude of the signal from the output of a conventional resistive sensor, it would be necessary to increase the power loss by 1-3% in the circuit where current measurements are made. Claims The current sensor of the winding of a magnetic element of the resistive type, characterized in that, in order to increase the output signal through the use of natural losses in the winding of the magnetic element, it is made in the form of an additional winding, which is directly connected to the same terminal of the magnetic element winding the same number of turns with it and is located on the same magnetic core as the winding of the magnetic element, and the second terminals of the indicated .K goshavicheki are connected to the output terminals datchika. ; Sources of information taken into account during the examination 1. Proceedings of MEI, issue 275, p. 88, fig. one.. Jat